Themed collection MOFs: Three Decades of Design and Discovery

A novel 2D Hofmann-type corrugated framework possessing Mn^II centres in the trigonal prismatic coordination geometry was derived by a combination of a quasi C_4v symmetric building unit [M^VN(CN)₄]²⁻ and a bidentate co-ligand dmbpy.

The generality of photo-induced generation of radicals with long T₁ and T₂ values in a series of acene-based metal–organic frameworks has been demonstrated.

A new synthetic route for constructing functional paddlewheel diruthenium(II,II) complexes ([Ru^II,II₂]) was developed by utilizing Schiff base condensation reactions.

An alkyl MOF with a molecular sieving effect exhibits great C₂H₂ adsorption capability and C₂H₂/C₂H₄ separation performance.

An efficient water-based purification strategy for metal–organic polyhedra (MOPs) using commercially available centrifugal ultrafiltration membranes was developed.

We synthesized a coordination polymer, [EtMeIm][Cu(bpy)(Me₂PO₄)₃], containing an anionic 1-D chain and an ethyl methyl imidazolium cation.

1D coordination polymers undergo transformations upon desolvation to yield sorbent materials.

A new two-dimensional Hofmann-type coordination polymer incorporating a hydrophobic cholesterol-based co-ligand showed a unique guest response.

Hybridized porous coordination polymers with sandwich or core–shell configuration are synthesized either through epitaxial growth or ligand replacement, respectively.

By adopting a ligand-based solid solution approach, the sulphonic acid functional group can be successfully incorporated into a porous coordination polymer with UiO-66 structure type.

We investigated the configuration of substituent groups that are post-synthetically bound to the pore surface in a porous coordination polymer.

The electrochemical properties of ferrocene-based porous coordination polymers were elucidated by the immobilization of the crystals on electrodes.

A pair of structurally diverse chiral metal–organic frameworks exhibit different chiroptical switching properties upon photoirradiation.

A manganese-based MOF as a catalyst for the synthesis of derivatives of benzoxazole and benzimidazole under mild conditions providing excellent conversions, high TON and TOF values and high recyclability.

The structural features, luminescence sensing, and gas adsorption properties of the 2D MOFs, (Me₂NH₂)₂[Zn₂(btb)₂(Im)₂]·2DMF·3MeOH (1) and (Me₂NH₂)₂[Zn₂(btb)₂(amp)]·H₂O·2DMF·MeOH (2), were thoroughly investigated and described.

We present the use of an amine functionalized 2D aminoclay (AC), in MOF chemistry to prepare MIL-101(Cr)/AC composites, which are exploited as catalysts for efficient conversion of CO₂ into cyclic carbonates at ambient reaction conditions.

Synthesis of UiO-66(Zr) at room temperature offers new feasibility for both the scalable production and application of MOFs.

OnG6 MOFs are mesoporous MOFs derived from the pro-drug ligand 4,4′-azodisalicylic acid. They can encapsulate antibiotics such as isoniazid and ciprofloxacin. The ciprofloxacin-loaded OnG6 exhibit antimicrobial activity against S. aureus and E. coli.

AWAXS and XAFS map uranyl binding in MOFs and elucidate uranyl uptake patterns.

The study of ORR performance of ZIF-67 in different facets obtained from the anisotropic crystal growth process. Three phases of ZIF-67 (bulk, cubic, and rhombic) were synthesized to study the impact of crystal facets on ORR activity.

Drug delivery systems based on porous metal–organic frameworks for sustained release of poorly soluble drugs hydrochlorothiazide and dapsone under simulated biological conditions.

In this study, we demonstrated the direct synthesis of sodium dihydrogen phosphate (PA) containing palladium nanoparticles (PdNPs) supported on a metal–organic framework (MOF) for hydrogenation catalysis.

Honeycomb-like 2D π-conjugated conductive metal–organic framework gas sensors with channel sizes <2 nm and broad conductivity range are studied with low conductivity facilitating response, multi-porosity and short channel resulting in fast speed.

A physiologically stable PCP based on titanium ions produces nitric oxide from bis-N-nitroso functionality on ligands under light irradiation.

Oligo(vinylidene fluoride) (OVDF) was introduced into coordination nanochannels, where the confined OVDF chains showed two dielectric relaxation processes.

A mechanochemical synthetic method is applied for construction of coordination pillared layer (CPL) structures with the same connectivity of their components and six different CPLs are obtained by this method.

The combination of Sn(IV) and Ca(II) with chloranilate leads to the generation of a robust, porous coordination network.

A mixture of 3-D, 2-D and 1-D polymers are formed when chloranilate is used to bridge lanthanide metal centres. Many of the structural differences may be attributed to the size of the metal ion. In contrast the lanthanide derivatives of dihydroxybenzoquinone are isostructural reflecting a particularly favourable hydrogen-bonding arrangement.